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2016 | OriginalPaper | Buchkapitel

1. Nonequilibrium Thermodynamics and Heat Transport at Nanoscale

verfasst von : Antonio Sellitto, Vito Antonio Cimmelli, David Jou

Erschienen in: Mesoscopic Theories of Heat Transport in Nanosystems

Verlag: Springer International Publishing

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Abstract

Current frontiers in nanotechnology and materials science [3–5, 9, 10, 12–15, 22, 23, 91] require generalized transport equations beyond the local-equilibrium theory [58, 64, 71, 96]. In particular, heat-transport equations for miniaturized systems whose size is comparable to (or smaller than) the mean-free path of the heat carriers nowadays have become an important topic in science and technology [30– 32, 39, 92]. Analogously, the behavior of systems submitted to high-frequency perturbations which are comparable to the reciprocal of internal relaxation times is studied to optimize the operation of high-frequency devices [55–57, 59, 61, 75, 79]. Equations for heat, mass, charge, and momentum transport have been actively explored in several situations: in miniaturized electronic devices, in nanotubes and nanowires, in theoretical models of energy transport in one-dimensional chains, in rarefied gases, etc. [58, 64]. As a consequence, new thermodynamic formalisms are necessary in this endeavor because thementioned situations clearly exceed the limits of validity of the classical local-equilibrium thermodynamics. This constitutes a formidable challenge for nonequilibrium thermodynamics to better understand its basic concepts, its limits of application, and its frontiers.

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Metadaten
Titel
Nonequilibrium Thermodynamics and Heat Transport at Nanoscale
verfasst von
Antonio Sellitto
Vito Antonio Cimmelli
David Jou
Copyright-Jahr
2016
DOI
https://doi.org/10.1007/978-3-319-27206-1_1

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